The dimensionality problem of membrane protrusions

Description

Thin, flat, branched actin cytoskeleton filled membrane protrusions like the lamellipodia and membrane ruffles are utilized by cells for a plethora of processes. While actin filaments are helical, with the probability of branching in all directions, most cellular protrusions are 2-dimensional. This project will investigate how dynamic flat protrusions are initiated and sustained when arising out of an essentially flat membrane using a combination of advanced fluorescence microscopy, in vitro reconstitution technique and simulations and modelling.

Essential criteria:

Minimum entry requirements can be found here: https://www.monash.edu/admissions/entry-requirements/minimum

Keywords

Biophysics, optogenetics, lattice light-sheet microscopy, Actin, ruffles, lamellipodia, reconstitution, simulation

School

Biomedicine Discovery Institute (School of Biomedical Sciences) » Anatomy and Developmental Biology

Available options

Honours

Joint PhD/Exchange Program

Time commitment

Full-time

Physical location

Monash Clayton Campus

Co-supervisors

Darius Koester

(External)

Richard Morris

(External)

Medicine, Nursing and Health Sciences

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The dimensionality problem of membrane protrusions